Use of a wearable accelerometer to evaluate physical frailty in people receiving haemodialysis

Tobia Zanotto; Thomas H Mercer; Marietta L van der Linden; Jamie P Traynor; Pelagia Koufaki

doi:10.1186/s12882-023-03143-z

Use of a wearable accelerometer to evaluate physical frailty in people receiving haemodialysis

BMC Nephrol. 2023 Mar 31;24(1):82. doi: 10.1186/s12882-023-03143-z.

Authors

Tobia Zanotto^{1

2}, Thomas H Mercer³, Marietta L van der Linden³, Jamie P Traynor⁴, Pelagia Koufaki³

Affiliations

¹ Department of Occupational Therapy Education, School of Health Professions, University of Kansas Medical Center, 3901 Rainbow Blvd, Kansas City, KS, 66160, USA. tzanotto@kumc.edu.
² Mobility Core, University of Kansas Center for Community Access, Rehabilitation Research, Education and Service, Kansas City, KS, USA. tzanotto@kumc.edu.
³ Centre for Health, Activity and Rehabilitation Research, School of Health Sciences, Queen Margaret University, Edinburgh, UK.
⁴ Renal and Transplant Unit, Queen Elizabeth University Hospital, Glasgow, UK.

Abstract

Background: Physical frailty is a major health concern among people receiving haemodialysis (HD) for stage-5 chronic kidney disease (CKD-5). Wearable accelerometers are increasingly being recommended to objectively monitor activity levels in CKD-5 and recent research suggests they may also represent an innovative strategy to evaluate physical frailty in vulnerable populations. However, no study has yet explored whether wearable accelerometers may be utilised to assess frailty in the context of CKD-5-HD. Therefore, we aimed to examine the diagnostic performance of a research-grade wearable accelerometer in evaluating physical frailty in people receiving HD.

Methods: Fifty-nine people receiving maintenance HD [age = 62.3 years (SD = 14.9), 40.7% female] participated in this cross-sectional study. Participants wore a uniaxial accelerometer (ActivPAL) for seven consecutive days and the following measures were recorded: total number of daily steps and sit-to-stand transitions, number of daily steps walked with cadence < 60 steps/min, 60-79 steps/min, 80-99 steps/min, 100-119 steps/min, and ≥ 120 steps/min. The Fried phenotype was used to evaluate physical frailty. Receiver operating characteristics (ROC) analyses were performed to examine the diagnostic accuracy of the accelerometer-derived measures in detecting physical frailty status.

Results: Participants classified as frail (n = 22, 37.3%) had a lower number of daily steps (2363 ± 1525 vs 3585 ± 1765, p = 0.009), daily sit-to-stand transitions (31.8 ± 10.3 vs 40.6 ± 12.1, p = 0.006), and lower number of steps walked with cadence of 100-119 steps/min (336 ± 486 vs 983 ± 797, p < 0.001) compared to their non-frail counterparts. In ROC analysis, the number of daily steps walked with cadence ≥ 100 steps/min exhibited the highest diagnostic performance (AUC = 0.80, 95% CI: 0.68-0.92, p < 0.001, cut-off ≤ 288 steps, sensitivity = 73%, specificity = 76%, PPV = 0.64, NPV = 0.82, accuracy = 75%) in detecting physical frailty.

Conclusions: This study provided initial evidence that a wearable accelerometer may be a useful tool in evaluating physical frailty in people receiving HD. While the total number of daily steps and sit-to-stand transitions could significantly discriminate frailty status, the number of daily steps walked with cadences reflecting moderate to vigorous intensity of walking may be more useful in monitoring physical frailty in people receiving HD.

Keywords: Accelerometer; Chronic kidney disease; Frailty; Haemodialysis; Physical activity.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Accelerometry
Cross-Sectional Studies
Female
Frailty* / diagnosis
Humans
Kidney Failure, Chronic* / diagnosis
Kidney Failure, Chronic* / therapy
Male
Renal Dialysis
Wearable Electronic Devices*